# Sort list in a list of lists F#

I'm trying to sort each Position (which is a list) in a Position list. Currently I'm doint like this:

type Position = Position of  list<int * Piece>


and my function:

let SortPositionList positionList : Position list =
let rec loop list =
match (list: Position list) with
| [] -> []
| hd::tl -> [List.sortBy(fun (x:(int*Piece)) -> fst x)(GetInternStruct(hd))::loop tl]
loop positionList


In my mind, this could be done by recursivelly sorting the actual head of the list and then concat it with the rest of the list, but it's not working. The errors in this function are:

Type mismatch. Expecting a (int * Piece) list list but given a (int * Piece) list list list The type 'int * Piece' does not match the type '(int * Piece) list', in the underlined loop tl

Type mismatch. Expecting a Position list but given a (int * Piece) list list list The type 'Position' does not match the type '(int * Piece) list list', in the underline calling of loop, loop positionList

Hope you can help, thanks in advance

Pedro Dusso

EDIT AList.map passing the sorting function would be a nice aproach?

SOLUTION

let SortPositionList (positionList : Position list) =
List.map (fun (Position(position)) -> List.sort(position)) positionList


As my Position struct is a (int * Piece) lst, I'm pattern matching it in the anonimous function and sorting it.

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In general, there are two ways of doing things in F#. You can either use recursion explicitly or you can use existing functions. In your case, you need to do two things in a nested way - you need to iterate over the outer list and sort the inner lists. The sorting can be done using List.sortBy and the iteration (projection) can be done using List.map.

To correct your original approach (using recursion) - I simplfied it slightly (because you don't need the loop function - you can make the function itself recursive):

let rec sortPositionList list =
match list with
| [] -> []
| hd::tl ->
// Sort the list of positions first - by storing this as a new value
// using 'let', you get more readable code (and you can use IntelliSense
// to explore the type of 'sorted' and understand what's going on)
let sorted = List.sortBy (fun (x, _) -> x) (GetInternStruct(hd))

// As Brian suggests, more idiomatic F# encoding of the line would be:
//   let sorted = GetInternStruct(hd) |> List.sortBy (fun (x, _) -> x)
// but both of the options would work in this case.

// Note: The result shouldn't be wrapped in '[ .. ]'. The operator '::'
// takes an element and a list and returns a new list created by
// prepending the element in front of the list
sorted::(sortPositionList tl)


The solution using existing functions (List.map) has been already posted by JDU. I would just add that he uses partial function application - so the parameter passed to List.map is a function. If this feels confusing, you can rewrite that using lambda function explicitly:

let SortPositionList (positionList) =
List.map (fun positions ->
List.sortBy (fun (index, _) -> index) positions) positionList


Which could be more idiomatically written using the pipelining operator and the fst function instead of explicit lambda parameter (as Brian mentioned):

let SortPositionList (positionList) =
positionList |> List.map (fun positions ->
positions |> List.sortBy fst)


This means exactly the same thing as the code posted by JDU, but you may find it more readable. Finally, you can write the same thing using sequence expressions (which is perhaps the most elegant option in my opinion):

let SortPositionList (positionList) =
[ for positions in positionList do
yield positions |> List.sortBy fst ]


EDIT The functions as I wrote them here work with values of type (int*Point) list list and not with the type Positions list. To change this, you need to add some wrapping and unwrapping. The recursive implementation should be:

  match list with         // List is always 'Positions', so we use pattern
| Positions [] -> []    // matching to unwrap the underlying list in
| Positions (hd::tl) -> // both cases
// Wrap the resulting list into the positions type
let sorted = Positions(List.sortBy (fun (x, _) -> x) (GetInternStruct(hd)))
(sorted::(sortPositionList tl))


Similarly, for the List.map implementation:

let SortPositionList (positionList) =
positionList |> List.map (fun (Positions positions) -> // pattern matching
positions |> List.sortBy fst |> Positions)  // wrapping

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Tomas, I more or less understando what you said about the [...]. I have a function that must generate a Position list. It is working prety well, but its return the list out-of-order. When I create a list I use let board1 = Position[(1,Piece.BLACK); (2,Piece.WHITE); (6,Piece.BLACK); ... ] for example. All solutions you proposed worked for me, and now Im understanding better the idiomatics. But how should I approach to turno around this? Thanks very much, Pedro Dusso (PS.: I bought your book!!! :) – Pedro Dusso Jul 4 '10 at 0:21
I'm not sure I follow your description completely - you have a list of positions as the input (which means you have a list of lists containing tuples int * Piece). What do you want to get as the result? Your original question seems to suggest that you want to get a list of sorted positions (that is a list containing sorted lists of tuples). Is that correct? – Tomas Petricek Jul 4 '10 at 0:30
Yes! Thats correct.The functions are working perfect, but as I need to sort then using the tuples, the final result is a (int * Piece) list list. As you see, my Position == (int * Piece) list. So my final question is how to "cast" this, after all they have the same "structure" I think. Thanks for all – Pedro Dusso Jul 4 '10 at 0:46

You are doing it wrong. :)

I have no clue what you're trying to do, but looking at your code, I just know it's wrong, and so here's what I see.

First, you have

... List.sortBy blah1 blah2 ...


which is non-idiomatic, you want

... blah2 |> List.sortBy blah1 ...


which will help with the type inference. This kinda segues into the second issue, which is

(fun (x:(int*Piece)) -> fst x)


is nonsense. You could write

(fun (i:int,p:Piece) -> i)


or

(fun (i,p) -> i)


or just

fst


and it would mean the same thing, but what you've written is unintelligible to humans (me, anyway). I expect perhaps that you got into that jam in the first place by not having the pipeline to start maybe.

Finally, more aside-ish, the lack of whitespace in your code sample also makes it unreadable; avoid ever having

)(


without a space in between, and use more horizontal and vertical whitespace to make the parsing of the code more apparent.

This is mostly stylistic and superficial feedback, but I think if you address that, the deep issues about the types not working out will start making more sense and become more readily apparent.

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Brian, thanks for you comment. I'm starting in F# world and I really apreciate feedbacks like this. I will try to improve my code readability to improve it. Thanks very much. – Pedro Dusso Jul 3 '10 at 23:53

let SortPositionList (positionList : Position list) =
List.map (fun pos -> List.sortBy (fun (index, _) -> index) pos) positionList


What you are then using is a List.map on the Position list, mapping each element (itself a list) to the List.sortBy function. This requires a function that returns a key for comparison. In this case we are using the built in pattern matching to match the index from the 'int * Piece' tuple.

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Thanks very much JDU. In the end, I wrote a different code, but your answer inspired me to it. Thanks again! – Pedro Dusso Jul 3 '10 at 23:53
The problem I'm having now is this code returns me a (int * Piece) list list :( I know that my Position is "(int * Piece) list", but how to make the code (ou cast it later) return a Position list? – Pedro Dusso Jul 4 '10 at 0:01
Do you mean you want to flatten the structure to a single list first and then sort that? – JDU Jul 4 '10 at 0:11
No, I mean that (int * Piece) list list == Position list, because (int * Piece) list == Position. But I need my answer in Position list... – Pedro Dusso Jul 4 '10 at 0:31
let apply f (Position xs) = Position(f xs)
let sorts = List.map (apply List.sort)

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